Changes between Version 8 and Version 9 of UCERF3 Implementation Instructions


Ignore:
Timestamp:
Feb 3, 2015, 11:58:22 AM (9 years ago)
Author:
Kevin Milner
Comment:

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  • UCERF3 Implementation Instructions

    v8 v9  
    1212 * Gridded seismicity (or background) sources are composed of up to two Magnitude frequency distributions (MFDs) at each 0.1° x 0.1° spaced grid node. One is "associated" (as in small earthquake associated with any faults in a grid cell) and the other is "unassociated" (as in independent of any faults). These two MFDs must be added to obtain the total off-fault, gridded, or background seismicity source rate.
    1313
    14  * All rupture rates in a UCERF3 solution file are NOT declustered rates. All supra-seismogenic ruptures (those defined as finite faults) must be scaled by 3%. Gridded or background source rates must be scaled in a magnitude dependent manner according to the OpenSHA [http://source.usc.edu/svn/opensha/trunk/dev/scratch/UCERF3/utils/GardnerKnopoffAftershockFilter.java GardnerKnopoffAftershockFilter].
     14 * All rupture rates in a UCERF3 solution file are NOT declustered rates. To obtain declustered rates, all supra-seismogenic ruptures (those defined as finite faults) must be scaled by 3%. Gridded or background source rates must be scaled in a magnitude dependent manner according to the OpenSHA [http://source.usc.edu/svn/opensha/trunk/dev/scratch/UCERF3/utils/GardnerKnopoffAftershockFilter.java GardnerKnopoffAftershockFilter].
    1515
    16  * 3D finite representations of ruptures may be created from the individual fault sections defined in a solution file. For details on how to stitch the sections together in order see the OpenSHA implementation of a [http://source.usc.edu/svn/opensha/trunk/src/org/opensha/sha/faultSurface/CompoundSurface.java Compound Fault Surface].
     16 * 3D finite representations of ruptures may be created from the individual fault sections defined in a solution file. For details on how to stitch the sections together in order see the OpenSHA implementation of a [http://source.usc.edu/svn/opensha/trunk/src/org/opensha/sha/faultSurface/CompoundSurface.java Compound Fault Surface]. Also see the OpenSHA [http://opensha.org/glossary-simpleFault Simple Fault Geometry] page for more details on constructing a 3D finite fault surface.
    1717
    1818 * Details on the [wiki:FaultSystemSolution fault system solution] file format.
     
    2727
    2828== [wiki:RunningUCERF3Inversions Running UCERF3 Inversions] ==
    29 See [wiki:RunningUCERF3Inversions this page] if you are interested in running UCERF3 inversions.
     29See [wiki:RunningUCERF3Inversions this page] if you are interested in running UCERF3 inversions. Most users will opt to use the already computed [wiki:UCERF3FaultSystemSolutions UCERF3 Fault System Solutions].